KR101959836B1 - a sheet stretching device and apparatus for fabricating the conductibility substrate using the same - Google Patents

Abstract

A sheet stretching apparatus and a conductive substrate manufacturing apparatus using the same are provided.
A pair of upper movable plates disposed side by side on both side edge upper margin portions of the substrate sheet or arranged in the width direction at the upper portion of the substrate sheet; A pair of lower fixing plates arranged side by side on both side edge margins of the substrate sheet or side by side in the width direction at the bottom of the substrate sheet; A pair of connecting plates disposed at a predetermined interval directly below the pair of lower fixing plates, the pair of lower fixing plates being provided with a fixed length operation shaft through which one end of the pair of upper movable plates is connected through a bushing member provided in the pair of lower fixing plates; A pair of moving plates disposed at a predetermined interval immediately below the pair of connecting plates, the pair of connecting plates having a fixed supporting bar having one end connected to the pair of lower fixing plates through a guide hole formed through the pair of connecting plates; A base plate disposed directly under the base sheet, the base plate including a slider provided on the pair of moving plates and an upper rail slidably assembled; A plurality of first actuators fixed to a pair of moving plates so that one end of the pair of connecting plates is connected to the pair of connecting plates, and reciprocally operated in a vertical direction of the pair of upper holding plates; A plurality of second actuators fixed to the base plate so as to be connected to the pair of moving plates and reciprocally operated in the horizontal direction of the pair of moving plates; .

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a sheet stretching apparatus and a conductive sheet manufacturing apparatus using the sheet stretching apparatus,

The present invention relates to an apparatus for stretching a sheet and an apparatus for producing a flexible conductive substrate using the same.

 Recently, with regard to display, people are demanding to develop a flexible display capable of folding, bending, or folding because they are easy to carry and require a larger screen.

Flat panel displays such as OLEDs and LCDs require an active matrix drive method for high resolution and low power operation. Inorganic thin film transistors, such as silicon currently used, have a high manufacturing temperature and break easily when bent or bent. There is a limit to apply.

In addition, interest and research on smart wear is increasing. Smart clothing refers to functional clothes that can realize digital functions by combining electric and electronic materials while retaining the properties of textiles and clothing , Which has been developed for military use and is currently being continuously researched and invested to expand into apparel and medical fields. For example, clothing electronics can be used to combine clothing with wearable computers.

As described above, in order to provide flexible electric and electronic products such as smart clothes and flexible displays, researches on organic thin film transistors (OTFTs) and OLED devices that can withstand bending or bending have been actively conducted .

Accordingly, in order to utilize the flexible electronic component, which is important in stretchability, the conductive substrate must be formed on the surface of the conductive substrate, which is flexible or flexible, and it is urgent to develop a conductive substrate having excellent electrical characteristics while maintaining elasticity.

(Patent Document 1) KR10-1225143 B1

(Patent Document 2) KR10-1531401 B1

Patent Document 1 discloses a flexible electrode material that is applied to flexible electronic parts such as a display device and an actuator that require flexibility and stretchability. Patent Document 2 discloses a flexible electrode material that is used in a state where it is mounted on a tension device, before, during, Such as polyimide or other films, to enable reversible and reversible tensioning of flexible substrates.

However, a conductive pattern is formed on the surface of a substrate such as a sheet to produce a conductive substrate. At this time, there is a problem that the electrode pattern such as a transparent electrode is broken at an extreme bending condition (for example, a radius of curvature of 1 mm).

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above problems, and it is an object of the present invention to provide a method of manufacturing a conductive substrate by coating and coating an electrode material on a substrate sheet, And a drying process in succession to the coating of the electrode and the electrode, so as to produce a conductive substrate free from defects such as breakage and disconnection of the electrode pattern during the deflection, and a conductive substrate manufacturing apparatus using the same.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not restrictive of the invention, unless further departing from the spirit and scope of the invention as defined by the appended claims. It will be possible.

As a specific means for achieving the above object, a preferred embodiment of the present invention is an apparatus for stretching a substrate sheet by applying a tensile force of a predetermined size to the base sheet, the apparatus comprising: A pair of upper movable plates arranged in the width direction at an upper portion of the sheet; A pair of lower fixing plates arranged side by side on both side edge margins of the substrate sheet or side by side in the width direction at the bottom of the substrate sheet; A pair of connecting plates disposed at a predetermined interval directly below the pair of lower fixing plates, the pair of lower fixing plates being provided with a fixed length operation shaft through which one end of the pair of upper movable plates is connected through a bushing member provided in the pair of lower fixing plates; A pair of moving plates disposed at a predetermined interval immediately below the pair of connecting plates, the pair of connecting plates having a fixed supporting bar having one end connected to the pair of lower fixing plates through a guide hole formed through the pair of connecting plates; A base plate disposed directly under the base sheet, the base plate including a slider provided on the pair of moving plates and an upper rail slidably assembled; A plurality of first actuators fixed to a pair of moving plates so that one end of the pair of connecting plates is connected to the pair of connecting plates, and reciprocally operated in a vertical direction of the pair of upper holding plates; A plurality of second actuators fixed to the base plate so as to be connected to the pair of moving plates and reciprocally operated in the horizontal direction of the pair of moving plates; Wherein the pair of upper movable plates are lowered relative to the pair of lower fixed plates by the first actuator so that the pair of moving plates are fixed to the base sheet by the second actuator while clamping and fixing the base sheet, And moving the sheet in the width direction or moving the sheet in the longitudinal direction to apply tensile force to the base sheet.

Preferably, the upper rail provided on the base plate includes a first upper rail slidably assembled with a slider of a moving plate disposed along the edges of the base sheet along the longitudinal direction of the base sheet, And a second upper rail which is slidably movably assembled with a slider of another moving plate to be disposed.

Preferably, the base plate may include an upper rail provided on a main body frame continuous in the longitudinal direction of the base sheet and a lower slider provided slidably.

Preferably, the base plate may include a horizontal plate facing the lower surface of the base sheet, the base plate having a height equal to that of the lower fixing plate between a pair of lower fixing plates facing each other in a central region of the upper surface.

Further, in a preferred embodiment of the present invention, an imprinting roll having a relief pattern formed on the outer surface of the base sheet stretched in the transverse direction or the longitudinal direction by the sheet stretching apparatus is provided, An imprinting unit for forming a pattern groove on a surface of the substrate sheet and filling the pattern groove with a primary electrode material to form a conductive pattern; And a first drying furnace for supplying hot air to the surface of the base sheet to dry the conductive pattern formed on the base sheet.

Preferably, the imprinting unit includes a roll bracket for idly rotating both ends of the imprinting roll, a first actuating cylinder to which a rod end is connected, and a first moving block coupled to the first actuating cylinder are slidably moved And a first motor for driving the first screw shaft, which is screwed with the first female screw provided on the first moving block, to rotate in the forward direction or the reverse direction.

The imprinting unit may further include a dispenser installed on the roll bracket and discharging the first electrode material to the surface of the base sheet formed by the pattern roll by the imprinting roll, And a blade in contact with the surface of the substrate sheet which proceeds in one direction so as to fill the ash pattern groove.

More preferably, the blade holder to which the blade is fixed is rotatably assembled to the holder support, and the holder support is connected to the rod end of the cylinder member fixedly installed on the first frame and can be moved up and down.

Preferably, the first and second laminating rolls in which the conductive patterns are formed enter the protective sheet, and the first and second laminating rolls are rotated in a direction of interlocking with each other. And may further include a lamination portion for forming a substrate.

Preferably, the first drying furnace may be connected to the up-and-down operation cylinder such that the opened lower end is adjacent to or away from the substrate sheet.

In a preferred embodiment of the present invention, a slot die facing the surface of the base sheet stretched in the width direction or the longitudinal direction is provided by the sheet stretching apparatus, and the secondary electrode material discharged from the slot die is coated on the surface of the base sheet To form a conductive layer; And a second drying furnace for supplying hot air to the surface of the substrate sheet so as to dry the conductive layer formed on the substrate sheet.

Preferably, the coating portion includes a second frame having a second actuating cylinder to which the slot die and the rod end are connected, a second guide rail to which the second movable block coupled with the second actuating cylinder is slidably moved, And a second motor for rotationally driving the second screw shaft screwed with the second female screw provided in the moving block in the forward or reverse direction.

Preferably, the first and second laminating rolls into which the conductive layer is formed enter the protective sheet, and the first and second laminating rolls are rotated in a direction of interlocking with each other. And may further include a lamination portion for forming a substrate.

Preferably, the second drying path may be connected to the up-and-down operation cylinder so that the opened lower end is adjacent to or away from the substrate sheet.

According to the present invention as described above, since the electrode material can be formed by applying the electrode material in a state in which the base material sheet is stretched in the longitudinal direction and / or the width direction with a constant tensile strength, It is possible to overcome the flexibility, to secure the stability under the extreme bending conditions, and to manufacture the conductive substrate having the ultra-high flexibility and excellent low resistance characteristics.

A conductive substrate capable of preventing disconnection of the electrode pattern against bending deformation can be applied to various industrial technologies such as a touch panel, a flat panel display, a solar cell, a transparent heating element for a vehicle, and a transparent electromagnetic wave shielding requiring flexibility, With this great technology, excellent effects can be obtained.

1 is an overall perspective view showing a sheet stretching apparatus according to a preferred embodiment of the present invention.
2 is an exploded perspective view showing a sheet stretching apparatus according to a preferred embodiment of the present invention.
3 is a cross-sectional perspective view showing a sheet stretching apparatus according to a preferred embodiment of the present invention.
4 is an assembled exploded perspective view showing a sheet stretching apparatus according to a preferred embodiment of the present invention.
5 is a schematic view showing an apparatus for manufacturing a conductive substrate using a sheet stretching apparatus according to a preferred embodiment of the present invention.
6 is an overall view of a conductive substrate manufacturing apparatus using a sheet stretching apparatus according to a preferred embodiment of the present invention.
7 is a configuration diagram illustrating an imprinting unit employed in a conductive substrate manufacturing apparatus using a sheet stretching apparatus according to a preferred embodiment of the present invention.
FIG. 8 is a configuration diagram illustrating a first drying furnace employed in an apparatus for manufacturing a conductive substrate using a sheet stretching apparatus according to a preferred embodiment of the present invention.
FIG. 9 is a view illustrating a coating unit employed in a conductive substrate manufacturing apparatus using a sheet stretching apparatus according to a preferred embodiment of the present invention.
FIG. 10 is a configuration diagram showing a second drying furnace employed in an apparatus for manufacturing a conductive substrate using a sheet stretching apparatus according to a preferred embodiment of the present invention.
11 is a configuration diagram showing a lamination unit employed in a conductive substrate manufacturing apparatus using a sheet stretching apparatus according to a preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, a detailed description of known functions and configurations incorporated herein will be omitted when it may obscure the subject matter of the present invention.

The same reference numerals are used for portions having similar functions and functions throughout the drawings.

In addition, in the entire specification, when a part is referred to as being 'connected' to another part, it may be referred to as 'indirectly connected' not only with 'directly connected' . Also, to include an element does not exclude other elements unless specifically stated otherwise, but may also include other elements.

1 to 4B, the sheet stretching apparatus 100 according to the preferred embodiment of the present invention is configured such that when the substrate sheet S advancing in one direction between the unloading roll and the unwinding roll is temporarily stopped, The lower fixing plate 120, the connecting plate 130, the moving plate 140, the base plate 150, and the first and second fixing plates 130 and 140 so as to apply a tension of a predetermined strength in the width direction or / , And two actuators 160 and 170.

The upper movable plate 110 is disposed in parallel with the upper margin portion which is the both side edges of the substrate sheet at the upper portion of the substrate sheet S as the object to be stretched or in the width direction intersecting the sheet longitudinal direction at the upper portion of the substrate sheet S And may include a pair of plate members arranged substantially in the shape of a rectangular plate.

The lower fixing plate 120 is disposed in parallel with the lower margin portion which is the edge of both sides of the base sheet S at the lower portion of the base sheet S or in the width direction at the lower portion of the base sheet S, And may include a pair of plate members formed substantially in the shape of a rectangular plate.

At this time, the upper movable plate 110 and the lower fixed plate 120, which are arranged in pairs in the upper and lower sides with the base sheet interposed therebetween, are preferably made of a substantially rectangular plate-shaped metal plate having the same size, And / or a pad member (not shown) made of a resin material so as to prevent surface damage when the upper surface of the lower fixing plate 120 is in contact with the base sheet, which is the object to be stretched.

Although the pad member is illustrated as being mounted to the pad groove 112 formed in the bottom surface of the upper movable plate so as to be capable of being interchanged, the present invention is not limited thereto, and the pad member may be replaced As shown in FIG.

The connection plate 130 is connected to a lower end of the pair of upper movable plates 111 through a bushing member 122 provided in the pair of lower fixed plates 120, 132 may be vertically arranged on the upper surface of the pair of lower fixing plates 120, and may be formed of a substantially rectangular plate.

The bushing member 122 includes a plurality of operating shafts 124 vertically disposed on the upper surface of the connecting plate 130 so as to penetrate the upper surface of the connecting plate 130 to vertically move the operating shaft 132 connected to the upper movable plate 110 The guide member is replaceably mounted on a mounting hole formed through the lower fixing plate so as to guide smoothly.

The moving plate 140 is fixed to the lower fixed plate 120 through a guide hole 135 having a predetermined size formed through the connecting plate 130. The fixed supporting bar 145 A plurality of plate members vertically arranged on the upper surface and arranged at a predetermined interval directly below the connection plate 130 and formed in a substantially rectangular plate shape.

The fixed support bar 145 is a vertical support structure interposed between the lower fixed plate 120 and the moving plate 140 so as to maintain a constant gap therebetween. 1 actuator having a diameter smaller than the inner diameter of the guide hole so that interference between the upper movable plate and the connecting plate due to the operation of the first actuator 160 and the guide hole of the connecting plate 130 does not occur, And a bar member.

At this time, the guide hole 135 may include a guide member such as a bearing member or a bushing member so as to smoothly move upward and downward relative to the fixed support bar, which is a fixing member.

The base plate 150 includes a slider 141 disposed on a lower surface of the moving plate 140 and an upper rail 151 disposed on the upper surface of the base plate 150 so as to be slidably moved, And may be formed of a substantially rectangular plate.

The upper rail 151 provided on the base plate 150 includes a first upper rail which is slidably assembled with the slider of the moving plate disposed in the longitudinal direction of the sheet along both side edges of the base sheet, And a second upper rail slidably assembled with a slider of another moving plate disposed in the width direction.

The first actuator 160 may include a plurality of cylinder members vertically fixed to the upper surface of the moving plate 140 so that the lower end of the connecting plate 130 and the rod end of the first end are connected to each other. The upper movable plate 110 connected to the connection plate 130 via the actuating shaft 132 can be vertically reciprocated in the vertical direction with respect to the lower fixed plate by the operation of the first actuator 160 formed of the cylinder member It is.

At this time, the first actuator 160 includes at least one cylinder member connected to the connecting plate 130 and the rod end. However, the present invention is not limited to this, and the first actuator 160 may be a power transmission mechanism for converting the rotational power into a linear reciprocating motion And a motor member connected via a means.

The second actuator 170 may include a plurality of cylinder members horizontally fixed to the upper surface of the base plate 150 so as to connect the rod ends of the one end with the moving plate 140, The moving plate 140 on which the first actuator is installed can be reciprocally operated in the horizontal direction together with the upper movable plate, the lower fixed plate, and the connecting plate by the operation of the second actuator 170.

At this time, the second actuator 170 has been described as being composed of at least one cylinder member to which the moving plate 140 and the rod end are connected. However, the present invention is not limited to this and the power transmission And a motor member connected via a means.

Accordingly, when the upper movable plate is lowered together with the connecting plate with respect to the lower fixed plate disposed on both side edges of the base sheet by the lowering operation of the first actuator 160 or arranged in the width direction of the base sheet, The upper movable plate is lowered together with the connecting plate with respect to the lower fixed plate kept fixed at the lower portion of the seat via the fixed supporting bar of the moving plate so that the base sheet is clamped between the lower fixed plate and the upper movable plate It can be fixed.

In this state, the pair of moving plates 140, which are slidably mounted on the upper rail provided on the upper surface of the base plate by the pulling action of the second actuator 170, are moved away from each other in the width direction of the base sheet The upper and lower fixing plates clamping and fixing the base sheet are forcibly moved in the width direction of the base sheet or forcibly moved in the longitudinal direction of the base sheet, Or tensile force in the longitudinal direction.

At this time, the tensile force applied in the lengthwise direction or the widthwise direction of the base sheet may be provided at a constant stress so as to maintain a constant tensile force at an elastic limit yield point set according to the material of the base sheet, and the operation of the second actuator 170 Can be adjusted and controlled according to the process conditions by the amount of movement of the pair of moving plates caused by the moving plate.

A horizontal plate 190, which is disposed between a pair of lower fixing plates 120 facing each other and faces a lower surface of the base sheet 150, and is formed in a substantially rectangular plate shape, The horizontal plate 190 is horizontally supported on an upper end of a vertical support plate 191 vertically provided on the upper surface of the base plate so as to have substantially the same height as the lower fixing plate 120.

The base plate 150 includes an upper rail 183 provided in the main body frame 180 continuous in the lengthwise direction of the base sheet and a lower slider 153 slidably mounted. The base sheet may be horizontally moved to a process position where another process is to be applied to the base sheet in a state in which a clamping force is applied or a state in which the base sheet is unclamped and the tensile force is released.

Here, the substrate sheet to which a tensile force is artificially applied by the sheet stretching apparatus 100 having the above-described configuration may be made of a resin material of any one of PET, PI, PDMS, and PU series.

When a tensile force is applied to the base sheet in a state where the base sheet is clamped in the longitudinal direction and / or the longitudinal direction of the base sheet, the base sheet is deformed (elastic deformation) in proportion to the stress due to the tensile force applied to the base sheet, And returns to its original state.

However, when the stress exceeds a certain limit, the deformation rapidly increases. This phenomenon is referred to as yield, and the critical stress is referred to as the yield stress or merely the yield strength or yield point of the material.

That is, even if the stress is removed at the yield stress abnormality, the base sheet does not return to its original shape and the permanent deformation remains in the state.

The sheet stretching apparatus 100 according to the preferred embodiment of the present invention allows the stress to be constantly applied to an arbitrary area set on the base sheet as the object to be stretched to be maintained at the elastic limit yield point.

5 to 11, an apparatus 1000 for manufacturing a conductive substrate using a sheet stretching apparatus 100 according to a preferred embodiment of the present invention has a structure in which a sheet is stretched between an unwinding roll R1 and a winding roll R2 The first drying furnace 300, the coating unit 400, the second drying furnace 500 and the lamination unit 600 are sequentially provided in the longitudinal direction or the longitudinal direction by the sheet stretching apparatus. And a conductive pattern and a conductive layer are sequentially formed on the surface of the base sheet S to which tensile force is applied in the longitudinal direction and the protective sheet is laminated on the conductive sheet and the base sheet on which the conductive layer is dried, Thereby completing the manufacture of the conductive substrate.

The unloading roll R1 is a roll member in which a base material sheet is rolled up in the form of a roll and is unwound and fed in one direction while being rotated in the unwinding direction.

6 and 7, the imprinting unit 200 may be configured such that the base sheet S temporarily stopped between the unwinding roll and the winding roll is moved in the width direction and / or the length direction by the sheet stretching apparatus 100, And an imprinting roll 210 for forming a pattern groove in an engraved pattern on the surface of the base sheet in a state of being stretched in the direction of the base sheet.

The imprinting roll 210 may comprise a cylindrical heating roll member which forms a relief pattern on the outer surface which is in contact with the surface of the substrate sheet and rotates in contact with the surface of the substrate sheet in the width direction and / have.

Accordingly, the embossing pattern is transferred to the surface of the base sheet by the imprinting roll 210 which is rotated and heated in contact with the surface of the base sheet S to form the pattern grooves, And filling the secondary electrode material to form a conductive pattern.

At this time, the primary electrode material may be Ag paste, AgNW, Copper, Ni, CNT, Graphene, or PEDOT.

The imprinting unit 200 includes a roll bracket 210a for idly rotating both ends of the roll axis of the imprinting roll 210 and a rod end connected to the imprinting roll 210 to vertically move the imprinting roll A first frame 220 including a first actuating cylinder 230 and having a first guide rail 222 to which a first moving block 223 coupled with the first actuating cylinder 230 is slidably moved, And a first screw shaft 241 screwed with a first female screw 242 provided in the first moving block 223 is rotationally driven in a forward or reverse direction to reciprocate the first moving block in the longitudinal direction of the seat, And a first motor 240 for moving the imprinting roll to rotate the imprinting roll in contact with the surface of the base sheet.

At this time, the horizontal plate 190 provided on the base plate of the sheet stretching apparatus 100 is disposed immediately below the base sheet to be in contact with the imprinting roll, And the embossing pattern formed on the surface of the imprinting roll is transferred to the base sheet by the horizontal plate contacting the lower surface of the base sheet stretched in the longitudinal direction, so that the operation of forming the pattern grooves can be carried out more smoothly.

The horizontal plate 190 is fixedly installed at the upper end of the vertical support plate 191 so as to maintain a horizontal state. However, the horizontal plate 190 is not limited thereto. The vertical plate 190 may be vertically movable .

That is, the imprinting roll 210 protruding from the outer surface of the imprinting pattern is vertically moved to the base sheet side by the first actuating cylinder, and is horizontally reciprocated by the rotational driving force of the first motor, Since the imprinting roll descending to circumscribe the surface of the substrate sheet can be moved in the horizontal direction, the embossing pattern is transferred to the surface of the substrate sheet stretched in the width direction or / and the longitudinal direction by the sheet stretching device, .

Then, the imprinting roll is returned to the initial position by the upward return of the first operating cylinder and the backward return operation of the first motor, and the next process is awaited.

The imprinting unit 200 is installed on a roll bracket 210a for idly rotating both ends of the roll axis of the imprinting roll 210 so that the surface of the substrate sheet formed by the imprinting roll The first frame 220 is provided with at least one dispenser 250 for dropping and supplying a liquid primary electrode material. The first frame 220 has a surface of a base sheet that proceeds in one direction so that the primary electrode material is filled in the pattern groove, May include a blade (260) that abuts against the blade (260).

The dispenser 250 is moved along with the imprinting roll 210 moved in the horizontal direction by the driving force of the first motor to drop the liquid primary electrode material on the surface of the base sheet on which the pattern groove is formed, And the blade 260 scrapes and removes the liquid primary electrode material coated on the surface of the base sheet that is in contact with the surface of the base sheet and proceeds in one direction, So that the electrode pattern P1 is formed.

The blade 260 is preferably made of a resilient plate material such as a rubber plate whose distal end abuts against the surface of the substrate sheet that advances to the right side in the one-directional drawing by releasing the release roll.

At this time, the unidirectional movement of the base sheet for forming the electrode pattern by filling the pattern groove formed in the base sheet with the blade by the primary electrode material is performed in a state where tensile force is applied to the base sheet by the sheet stretching apparatus Or the base sheet is not subjected to a tensile force.

That is, in the step of forming the electrode pattern, unidirectional movement of the base sheet is performed by horizontally moving the sheet stretching device in a state in which the base sheet is clamped between the upper movable plate and the lower fixed plate and a tensile force is applied in the width direction and / And the base sheet can be made to stand alone in a state where the upper movable plate is lifted up and returned to the lower fixed plate and the clamping state of the sheet stretching device is released.

At this time, the horizontal movement of the sheet stretching apparatus 100 for clamping the base sheet by applying a tensile force is performed by a unidirectional progressive force of the base sheet, or by a driving member such as a cylinder member or a motor, As shown in FIG.

One end of the blade holder 261 to which the blade 260 is fixed is rotatably assembled to the holder support 262 and the holder support 262 is fixed to the first frame by a cylinder member 263 So that it can be operated up and down for contact and non-contact between the leading end of the blade and the base sheet.

Here, the up and down movement of the holder supporter 262 may be performed by rotational movement of a screw member screwed to the female screw portion.

As shown in FIGS. 6 and 8, the first drying furnace 300 is configured to dry the conductive pattern formed by the liquid primary electrode material filling the pattern groove of the substrate sheet S, Hot air is supplied to the surface of the heat exchanger.

The first drying furnace 300 is connected to the hot air supply line to which the hot air is supplied and the lower end facing the substrate sheet is opened. Thus, hot air supplied through the hot air supply line is supplied to the first And is blown downward to the upper surface of the base sheet through the opened lower end of the drying furnace to dry the conductive pattern.

Here, the first drying furnace 300 may be connected to the up-and-down operation cylinder 310 so as to reciprocate up and down so that the opened lower end thereof is adjacent to or away from the base sheet. The furnace 300 is moved upward by a predetermined height to stand by to prevent interference with the sheet stretching apparatus which is moved together with the base sheet. On the other hand, when drying the conductive pattern formed on the base sheet, By operation, the open lower end of the first drying path is located inside the sheet stretching apparatus and is lowered adjacent to the upper surface of the base sheet.

6 and 9, the coating unit 400 may be configured such that the release roll and the temporarily stopped base sheet are stretched in the width direction and / or the longitudinal direction by the sheet stretching apparatus 100, And a slot die 410 for spraying a liquid secondary conductive material to cover the electrode pattern on the surface of the base sheet on which the conductive pattern is formed or to form a conductive layer covering the surface of the base sheet.

The slot die 410 is disposed on the surface of the base sheet S by spraying a liquid secondary electrode material against the surface of the base sheet S which is stretched in the width direction or the longitudinal direction by the sheet stretching apparatus 100, To form a conductive layer to be applied to the conductive layer.

And a second actuating cylinder 430 connected to the rod end of the slot die 410 to move the slot die up and down with respect to the base sheet. The second actuating cylinder 430, which is coupled with the second actuating cylinder 430, And a second frame 420 provided with a second guide rail 422 on which the block 423 is slidably movably assembled so that a second female screw 442 provided on the second moving block 423 and a screw And a second motor (440) that rotates the second screw shaft (441) to rotate in the forward or reverse direction to reciprocate the slot die in the longitudinal direction of the base sheet. The secondary electrode material is sprayed onto the surface of the substrate sheet while horizontally moving the die to form the conductive layer.

The secondary electrode material is preferably made of Ag paste, AgNW, Copper, Ni, Ni, and the like. The secondary electrode material is preferably made of a material different from that of the primary electrode material, CNT, Graphene, or PEDOT.

That is, the slot die 410 is moved up and down in the vertical direction to the substrate sheet side by the second operation cylinder 430, and then moved in the horizontal direction by the driving force of the second motor 440, Since the slot die, which has been lowered so as to approach the discharge end, can be moved in the horizontal direction, the liquid secondary conductive material is sprayed onto the surface of the base sheet stretched in the width direction and / or the longitudinal direction by the sheet stretching device Thereby forming a conductive layer P2 covering the electrode pattern P1 filled in the pattern groove.

Then, the slot die is returned to the initial position by the up and down operation of the second operating cylinder and the backward return operation of the second motor, and the next process is awaited.

At this time, the step of spraying the secondary electrode material on the surface of the base sheet by the slot die to form the conductive layer P2 of a certain thickness is performed by the sheet stretching apparatus 100 in the width direction and / In a state in which a tensile force of a certain strength is applied in the direction of the arrow.

6 and 10, the second drying furnace 500 includes a conductive layer (not shown) formed by applying a secondary electrode material so as to cover a conductive pattern formed on the base sheet S similarly to the first drying furnace P2 to the surface of the base sheet so as to dry the hot air.

The second drying furnace 500 is connected to another hot air supply line to which hot air at a high temperature is supplied and is formed of a box body having a lower end facing the base sheet, 2 drying furnace so that the conductive layer can be dried by blowing down to the upper surface of the base sheet through the lower end of the drying furnace.

Here, the second drying furnace 500 may be connected to another up-and-down operation cylinder 510 so as to move up and down so as to be adjacent to or away from the substrate sheet. The drying furnace 500 is moved up and raised to a certain height so as to prevent interference with the sheet stretching apparatus which is moved together with the base sheet. On the other hand, when drying the conductive layer formed on the base sheet, The lower end of the second drying furnace is located inside the sheet stretching apparatus and descends to be adjacent to the upper surface of the base sheet by the lowering operation.

6 and 11, the lamination unit 600 includes first and second laminating rolls 610 and 620 which are rotated in a direction in which the lamination unit 600 is engaged with the substrate sheet S, The protective sheet S1 from which the ridges S2 have been removed enters the first and second laminating rolls to produce a laminated substrate in which the base sheet and the protective sheet are laminated.

The laminated substrate laminated while passing between the first and second laminating rolls is wound in the form of a roll by the winding roll R2.

The protective sheet S12 in which the protective sheet S1 and the release sheet S2 are combined is released by the other release roll R3 while the release sheet S2 separated while passing between the release rolls is conveyed to the other roller R4 And the protective sheet from which the release paper is separated enters between the first and second laminating rolls.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be apparent to those of ordinary skill in the art.

110: upper copper plate
120: Lower fixed plate
122: bushing member
130: connection plate
132: Operation axis
135: Guide ball
140: moving plate
145: Fixed support bar
150: base plate
160: first actuator
170: second actuator
180: Body frame
200: Imprinting unit
210: imprinting roll
220: 1st frame
230: first working cylinder
240: first motor
310: First drying furnace
400: Coating portion
410: slot die
420: second frame
430: second working cylinder
440: Second motor
500: Second drying furnace
600:
S: substrate sheet
S1: Protective sheet
S2:
P1: electrode pattern
P2: electrode layer
R1, R3: Release roll
R2, R4:

Claims (14)

A pair of upper movable plates arranged side by side on both side edges of the substrate sheet or arranged in the width direction at the top of the substrate sheet;
A pair of lower fixing plates arranged side by side on both side edge margins of the substrate sheet or side by side in the width direction at the bottom of the substrate sheet;
A pair of connecting plates disposed at a predetermined interval directly below the pair of lower fixing plates, the pair of lower fixing plates being provided with a fixed length operation shaft through which one end of the pair of upper movable plates is connected through a bushing member provided in the pair of lower fixing plates;
A pair of moving plates disposed at a predetermined interval immediately below the pair of connecting plates, the pair of connecting plates having a fixed supporting bar having one end connected to the pair of lower fixing plates through a guide hole formed through the pair of connecting plates;
A base plate disposed directly under the base sheet, the base plate including a slider provided on the pair of moving plates and an upper rail slidably assembled;
A plurality of first actuators fixed to a pair of moving plates so that one end of the pair of connecting plates is connected to the pair of connecting plates, and reciprocally operated in a vertical direction of the pair of upper holding plates;
A plurality of second actuators fixed to the base plate so as to be connected to the pair of moving plates and reciprocally operated in the horizontal direction of the pair of moving plates; Wherein the pair of upper movable plates are lowered relative to the pair of lower fixed plates by the first actuator so that the pair of moving plates are fixed to the base sheet by the second actuator while clamping and fixing the base sheet, And a sheet stretching apparatus for moving the sheet in the width direction or moving the sheet in the longitudinal direction to apply a tensile force to the base sheet,
And an imprinting roll having an embossing pattern formed on an outer surface thereof which is in contact with the surface of the base sheet stretched in the width direction or the longitudinal direction by the sheet stretching device, thereby forming pattern grooves on the surface of the base sheet by the imprinting roll An imprinting unit filling the pattern groove with a primary electrode material to form a conductive pattern;
And a first drying furnace for supplying hot air to the surface of the substrate sheet to dry the conductive pattern formed on the substrate sheet,
The imprinting unit may include a roll bracket for idly rotating both ends of the imprinting roll, a first actuating cylinder to which a rod end is connected, a first movable block coupled to the first actuating cylinder, And a first motor for rotationally driving the first screw shaft engaged with the first female screw provided on the first moving block in the forward direction or the reverse direction. The method according to claim 1,
The upper rail provided on the base plate includes a first upper rail which is slidably assembled with the slider of the moving plate arranged in the longitudinal direction of the sheet along both side edges of the base sheet, And a second upper rail which is slidably movably assembled with the slider of the moving plate. The method according to claim 1,
Wherein the base plate comprises an upper rail provided on a main body frame continuous in a longitudinal direction of the base sheet and a lower slider provided slidably. The method according to claim 1,
Wherein the base plate includes a horizontal plate facing the lower surface of the base sheet, the base plate being disposed between the pair of lower fixing plates facing each other in the center area of the upper surface, . delete delete The method according to claim 1,
The imprinting unit may include a dispenser installed in the roll bracket and discharging a first electrode material to a surface of a substrate sheet formed by the imprinting roll, the first electrode material being provided on the first frame, And a blade which is in contact with a surface of the base sheet which proceeds in one direction so as to be filled therewith. 8. The method of claim 7,
Wherein the blade holder to which the blade is fixed is rotatably assembled to a holder support and the holder support is connected to a rod end of a cylinder member fixed to the first frame and moved up and down. A pair of upper movable plates arranged side by side on both side edges of the substrate sheet or arranged in the width direction at the top of the substrate sheet;
A pair of lower fixing plates arranged side by side on both side edge margins of the substrate sheet or side by side in the width direction at the bottom of the substrate sheet;
A pair of connecting plates disposed at a predetermined interval directly below the pair of lower fixing plates, the pair of lower fixing plates being provided with a fixed length operation shaft through which one end of the pair of upper movable plates is connected through a bushing member provided in the pair of lower fixing plates;
A pair of moving plates disposed at a predetermined interval immediately below the pair of connecting plates, the pair of connecting plates having a fixed supporting bar having one end connected to the pair of lower fixing plates through a guide hole formed through the pair of connecting plates;
A base plate disposed directly under the base sheet, the base plate including a slider provided on the pair of moving plates and an upper rail slidably assembled;
A plurality of first actuators fixed to a pair of moving plates so that one end of the pair of connecting plates is connected to the pair of connecting plates, and reciprocally operated in a vertical direction of the pair of upper holding plates;
A plurality of second actuators fixed to the base plate so as to be connected to the pair of moving plates and reciprocally operated in the horizontal direction of the pair of moving plates; Wherein the pair of upper movable plates are lowered relative to the pair of lower fixed plates by the first actuator so that the pair of moving plates are fixed to the base sheet by the second actuator while clamping and fixing the base sheet, And a sheet stretching apparatus for moving the sheet in the width direction or moving the sheet in the longitudinal direction to apply a tensile force to the base sheet,
And an imprinting roll having an embossing pattern formed on an outer surface thereof which is in contact with the surface of the base sheet stretched in the width direction or the longitudinal direction by the sheet stretching device, thereby forming pattern grooves on the surface of the base sheet by the imprinting roll An imprinting unit filling the pattern groove with a primary electrode material to form a conductive pattern;
And a first drying furnace for supplying hot air to the surface of the substrate sheet to dry the conductive pattern formed on the substrate sheet,
The first and second laminating rolls into which the conductive pattern is formed enter the protective sheet, and the first and second laminating rolls are rotated in a direction to engage with each other, thereby forming a laminated substrate in which the base material sheet and the protective sheet are laminated And a stacking portion for stacking the conductive substrates. A pair of upper movable plates arranged side by side on both side edges of the substrate sheet or arranged in the width direction at the top of the substrate sheet;
A pair of lower fixing plates arranged side by side on both side edge margins of the substrate sheet or side by side in the width direction at the bottom of the substrate sheet;
A pair of connecting plates disposed at a predetermined interval directly below the pair of lower fixing plates, the pair of lower fixing plates being provided with a fixed length operation shaft through which one end of the pair of upper movable plates is connected through a bushing member provided in the pair of lower fixing plates;
A pair of moving plates disposed at a predetermined interval immediately below the pair of connecting plates, the pair of connecting plates having a fixed supporting bar having one end connected to the pair of lower fixing plates through a guide hole formed through the pair of connecting plates;
A base plate disposed directly under the base sheet, the base plate including a slider provided on the pair of moving plates and an upper rail slidably assembled;
A plurality of first actuators fixed to a pair of moving plates so that one end of the pair of connecting plates is connected to the pair of connecting plates, and reciprocally operated in a vertical direction of the pair of upper holding plates;
A plurality of second actuators fixed to the base plate so as to be connected to the pair of moving plates and reciprocally operated in the horizontal direction of the pair of moving plates; Wherein the pair of upper movable plates are lowered relative to the pair of lower fixed plates by the first actuator so that the pair of moving plates are fixed to the base sheet by the second actuator while clamping and fixing the base sheet, And a sheet stretching apparatus for moving the sheet in the width direction or moving the sheet in the longitudinal direction to apply a tensile force to the base sheet,
And an imprinting roll having an embossing pattern formed on the outer surface thereof which is in contact with the surface of the base sheet stretched in the width direction or the longitudinal direction by the sheet stretching apparatus, thereby forming pattern grooves on the surface of the base sheet by the imprinting roll An imprinting unit filling the pattern groove with a primary electrode material to form a conductive pattern;
And a first drying furnace for supplying hot air to the surface of the substrate sheet to dry the conductive pattern formed on the substrate sheet,
Wherein the first drying furnace is connected to the up-and-down operation cylinder so that the opened lower end is adjacent to or away from the substrate sheet. delete A pair of upper movable plates arranged side by side on both side edges of the substrate sheet or arranged in the width direction at the top of the substrate sheet;
A pair of lower fixing plates arranged side by side on both side edge margins of the substrate sheet or side by side in the width direction at the bottom of the substrate sheet;
A pair of connecting plates disposed at a predetermined interval directly below the pair of lower fixing plates, the pair of lower fixing plates being provided with a fixed length operation shaft through which one end of the pair of upper movable plates is connected through a bushing member provided in the pair of lower fixing plates;
A pair of moving plates disposed at a predetermined interval immediately below the pair of connecting plates, the pair of connecting plates having a fixed supporting bar having one end connected to the pair of lower fixing plates through a guide hole formed through the pair of connecting plates;
A base plate disposed directly under the base sheet, the base plate including a slider provided on the pair of moving plates and an upper rail slidably assembled;
A plurality of first actuators fixed to a pair of moving plates so that one end of the pair of connecting plates is connected to the pair of connecting plates, and reciprocally operated in a vertical direction of the pair of upper holding plates;
A plurality of second actuators fixed to the base plate so as to be connected to the pair of moving plates and reciprocally operated in the horizontal direction of the pair of moving plates; Wherein the pair of upper movable plates are lowered relative to the pair of lower fixed plates by the first actuator so that the pair of moving plates are fixed to the base sheet by the second actuator while clamping and fixing the base sheet, And a sheet stretching apparatus for moving the sheet in the width direction or moving the sheet in the longitudinal direction to apply a tensile force to the base sheet,
And a slot die facing the surface of the base sheet stretched in the width direction or in the longitudinal direction by the sheet stretching device and coating the surface of the base sheet with a secondary electrode material discharged from the slot die to form a conductive layer ;
And a second drying furnace for supplying hot air to the surface of the substrate sheet so as to dry the conductive layer formed on the substrate sheet,
The coating unit includes a second frame having a second actuating cylinder to which the slot die and the rod end are connected and a second guide rail to which a second moving block coupled with the second actuating cylinder is slidingly moved, And a second motor for rotationally driving the second screw shaft, which is screwed with the installed second female screw, in the forward or reverse direction. A pair of upper movable plates arranged side by side on both side edges of the substrate sheet or arranged in the width direction at the top of the substrate sheet;
A pair of lower fixing plates arranged side by side on both side edge margins of the substrate sheet or side by side in the width direction at the bottom of the substrate sheet;
A pair of connecting plates disposed at a predetermined interval directly below the pair of lower fixing plates, the pair of lower fixing plates being provided with a fixed length operation shaft through which one end of the pair of upper movable plates is connected through a bushing member provided in the pair of lower fixing plates;
A pair of moving plates disposed at a predetermined interval immediately below the pair of connecting plates, the pair of connecting plates having a fixed supporting bar having one end connected to the pair of lower fixing plates through a guide hole formed through the pair of connecting plates;
A base plate disposed directly under the base sheet, the base plate including a slider provided on the pair of moving plates and an upper rail slidably assembled;
A plurality of first actuators fixed to a pair of moving plates so that one end of the pair of connecting plates is connected to the pair of connecting plates, and reciprocally operated in a vertical direction of the pair of upper holding plates;
A plurality of second actuators fixed to the base plate so as to be connected to the pair of moving plates and reciprocally operated in the horizontal direction of the pair of moving plates; Wherein the pair of upper movable plates are lowered relative to the pair of lower fixed plates by the first actuator so that the pair of moving plates are fixed to the base sheet by the second actuator while clamping and fixing the base sheet, And a sheet stretching apparatus for moving the sheet in the width direction or moving the sheet in the longitudinal direction to apply a tensile force to the base sheet,
And a slot die facing the surface of the base sheet stretched in the width direction or in the longitudinal direction by the sheet stretching device and coating the surface of the base sheet with a secondary electrode material discharged from the slot die to form a conductive layer ;
And a second drying furnace for supplying hot air to the surface of the substrate sheet so as to dry the conductive layer formed on the substrate sheet,
The first and second laminating rolls into which the conductive layer is formed enter the protective sheet, and the first and second laminating rolls are rotated in a direction to engage with each other to form a laminated substrate in which the base material sheet and the protective sheet are laminated And a stacking portion for stacking the conductive substrates. A pair of upper movable plates arranged side by side on both side edges of the substrate sheet or arranged in the width direction at the top of the substrate sheet;
A pair of lower fixing plates arranged side by side on both side edge margins of the substrate sheet or side by side in the width direction at the bottom of the substrate sheet;
A pair of connecting plates disposed at a predetermined interval directly below the pair of lower fixing plates, the pair of lower fixing plates being provided with a fixed length operation shaft through which one end of the pair of upper movable plates is connected through a bushing member provided in the pair of lower fixing plates;
A pair of moving plates disposed at a predetermined interval immediately below the pair of connecting plates, the pair of connecting plates having a fixed supporting bar having one end connected to the pair of lower fixing plates through a guide hole formed through the pair of connecting plates;
A base plate disposed directly under the base sheet, the base plate including a slider provided on the pair of moving plates and an upper rail slidably assembled;
A plurality of first actuators fixed to a pair of moving plates so that one end of the pair of connecting plates is connected to the pair of connecting plates, and reciprocally operated in a vertical direction of the pair of upper holding plates;
A plurality of second actuators fixed to the base plate so as to be connected to the pair of moving plates and reciprocally operated in the horizontal direction of the pair of moving plates; Wherein the pair of upper movable plates are lowered relative to the pair of lower fixed plates by the first actuator so that the pair of moving plates are fixed to the base sheet by the second actuator while clamping and fixing the base sheet, And a sheet stretching apparatus for moving the sheet in the width direction or moving the sheet in the longitudinal direction to apply a tensile force to the base sheet,
And a slot die facing the surface of the base sheet stretched in the width direction or in the longitudinal direction by the sheet stretching device and coating the surface of the base sheet with a secondary electrode material discharged from the slot die to form a conductive layer ;
And a second drying furnace for supplying hot air to the surface of the substrate sheet so as to dry the conductive layer formed on the substrate sheet,
Wherein the second drying furnace is connected to the up-and-down operation cylinder so that the opened lower end is adjacent to or away from the substrate sheet.

Images